DE102012221725A1 - Top plate bearing, has inner ring part and outer ring part that are mutually supported through set of axial and radial loads, and rolling bearings provided with respect to pressure angle and formed as axial bearing and contact bearing - Google Patents

Abstract

The bearing (1) has an inner ring part (2) and an outer ring part (3) that are mutually supported through a set of axial and radial loads. Two difference rolling bearings are provided with respect to pressure angle. One bearing is formed as an axial bearing (9), and the other bearing is formed as an angular contact bearing (13). The axial bearing is formed as a cylindrical roller bearing (10). The angular contact bearing is formed as an angular contact ball bearing (14) or a tapered roller bearing. Outer diameter of the roller bearing corresponds to inner diameter of the axial bearing.

Description

Field of the invention

The invention relates to a rotary table bearing, comprising an inner ring part and an outer ring part, which are mounted relative to each other via a plurality of receiving axial and radial loads serving bearings.

Background of the invention

Such rotary table bearings are used for precise axle mounting of a rotary table of a machine tool, wherein on the rotary table usually a workpiece to be machined is added. These rotary tables are also used to hold heavy duty workpieces, which is why large warehouses with diameters of 1000 mm and much more are installed in this area.

Known rotary table bearings are constructed as symmetrical bearings, an example is made DE 10 2008 017 457 A1 known. The local rotary table bearing consists of an inner ring part, which in the example described there carries the rotary table, respectively, is coupled thereto, and an outer ring part, which is fixed on the frame side. The inner ring part is U-shaped in cross-section, the outer ring part engages in the inner ring part and is supported on both sides via a respective thrust bearing. Furthermore, both are rotatably mounted via a radial bearing in the radial direction. The axial and radial bearings themselves are designed as cylindrical roller bearings. Axial and radial loads as well as tilting moments can be absorbed via these bearings, both bearings are clearance-free and defined as preloaded.

For longer turn-on periods with higher speed comes, especially in combination with a direct drive, the thermal behavior of the radial bearing a considerable importance. Because it comes to a different heating of the inner ring part and the outer ring part, whereby primarily the radial raceways are adversely affected. Because due to the different thermal expansion changes the bias, in particular, since the expansion of the rings is received directly into the bias. This changing preload can quickly lead to bearing failure or limited bearing performance, and this effect increases with increasing bearing size. By contrast, the two thrust bearing rows are stiffer, however, even with an uncritical load within one axial bearing row, it is possible to relieve the load on the other thrust bearing row, which also has a disadvantageous effect.

Although the resulting from the thermal behavior disadvantages can be countered that, for example, an oil circulation cooling is used, but this is associated with particular effort, resulting not least in a complexity of the rotary table bearing itself as well as the zuzuhaltenden connection parts etc.

In addition to such, consisting of a combination of two axial and a radial bearing rotary table bearings and rotary table bearings are known which consist of two combined axial angular contact ball bearings. There are therefore provided on the inner ring member and the outer ring component corresponding track geometries on which roll the balls, which has a defined pressure angle of z. B. have 60 °. These bearings are characterized by the possibility of a higher bias due to the point contact within the rows of rolling, also the influence of the ring strain in the heating case is lower, that is, even with heated outer ring the function is guaranteed, as with heated inner ring still sufficient life and backlash is achieved. However, from the given in both rows of bearings point contacts results in a lower axial stiffness and consequent also a reduced tilting rigidity. However, these properties are especially required for large bearing diameters.

Object of the invention

The invention is therefore an object of the invention to provide a rotary table bearing, which reacts largely insensitive to any temperature differences within the camp and has properties that essentially correspond to those of the previously known rotary table bearings with line contact between the rolling elements and bearing ring.

Description of the invention

To solve this problem is inventively provided in a rotary table bearing of the type mentioned that only two different in the pressure angle bearings are provided.

The rotary table bearing according to the invention, which forms a prefabricated bearing unit, has an asymmetrical construction, unlike the rotary table bearing known from the prior art. There are only two antifriction bearings forming an asymmetrical bearing arrangement, for example a first bearing in the form of a thrust bearing (such as a cylindrical roller bearing), and a second bearing, for example in the form of an angular contact bearing (such as an angular contact ball bearing and a tapered roller bearing ). Both rolling bearings each with a row of bearings differ in pressure or contact angle, the angle difference only a few degrees may be, but also larger angular differences of several 10 ° may be given. The angular difference may preferably be between 5-50 °. Basically, the design of the bearings is done so that they can accommodate high axial loads. The radial loads and the preload of the rotary table bearing itself are primarily absorbed by the rolling bearing with the larger pressure angle, such as a Schrägkontaktlager. Due to the pressure angle> 0 ° any change in diameter of the inner ring part and the outer ring part, resulting from a different heating of both parts, not 1: 1 in a bias change over. Although such occurs, it is, compared to the previously used rotary table bearing, with respect to a comparable geometry change on the part of the ring parts much lower. Also, the larger pressure bearing having bearing, so the angular contact bearing, for example, an angular contact ball bearings are biased very high, so that here also a larger temperature difference range can be covered. By skillful choice of the pressure angle and the ball size or the diameter of the cylindrical rollers, an optimum between tilting rigidity and radial rigidity or radial load capacity can be achieved. The bearing with the larger pressure angle, for example, a pure thrust bearing with a pressure angle of 90 °, essentially takes over the axial loads, but it is sufficient in the rotary table bearing according to the invention to install only such a bearing such as a pure thrust bearing, as well as the angular contact bearing to some extent absorbs the axial loads.

Thus, the rotary table bearing according to the invention is characterized by a far-reaching insensitivity with respect to any temperature differences, however, mechanical properties, in particular with respect to the axial and radial load capacity as well as the tilting rigidity are achieved, which correspond to those previously known symmetrical storage systems. However, according to the invention there is an asymmetrical structure of the rotary table bearing with its only two rows of rolling elements, i. that a reflection at a plane of symmetry with respect to the bearings or the bearing rows is not possible. The rotary table bearing forms a completely assembled unit, which can be directly installed as such.

As described, one roller bearing is preferably a thrust bearing and the other roller bearing is a helical contact bearing. Instead of a pure thrust bearing but can also be a Schrägkontaktlager be installed, the pressure angle but he greater than that of the other Schrägkontaktlagers.Wie described the thrust bearing is preferably designed as a cylindrical roller bearing, but also conceivable is the integration of an axial ball bearing.

The angular contact bearing may be an angular contact ball bearing, a tapered roller bearing or a tapered roller bearing, wherein the realized pressure angle in conjunction with the size of the rolling elements used is preferably designed application-related.

In order to achieve the most compact possible design, the invention further provides that the outer diameter of a rolling bearing, in particular of the angular contact bearing approximately corresponds to the inner diameter of the other rolling bearing, in particular of the thrust bearing. That is, these two diameters are similar to each other, the outer diameter is ultimately only slightly smaller than the inner diameter, so that both have similar large diameter rotor. On the one hand, this improves the radial properties and, on the other hand, allows execution as a compact storage unit. This advantage is the more serious the larger the bearing diameter.

An even further compaction seen in the radial direction results when, seen axially, the one rolling bearing, in particular the angular contact bearing partially covers the other rolling bearing, in particular the thrust bearing. This means that the running circle diameter is ultimately almost the same, respectively, seen axially, the running surfaces partially overlap each other.

The inner ring part itself preferably consists of two axially superimposed, screwed together rings, wherein on one ring the running surface for the rolling elements of a rolling bearing, in particular the thrust bearing and the other ring the running surface for the rolling elements of the other bearing, in particular the angular contact bearing are provided. The two rings can either be screwed directly together, but it is also conceivable to arrange a spacer between the rings, over which the distance between the two rings for a defined bias of the bearings, in particular the angular contact bearing, can be set exactly.

Short description of the drawing

An embodiment of the invention is illustrated in the drawing and will be described in more detail below. Show it:

1 3 is a partial sectional view of a rotary table bearing according to the invention of a first embodiment,

2 the rotary table bearing 1 in a 180 ° rotated arrangement,

3 a sectional partial view of a rotary table bearing according to the invention a second embodiment, and

4 the rotary table bearing 3 in 180 ° rotated arrangement.

Detailed description of the drawing

1 shows an inventive asymmetrically constructed rotary table bearing 1 comprising an inner ring part 2 and an outer ring part 3 , The outer ring part 3 is mounted on the rack side, for example, including corresponding mounting holes 4 , which are penetrated by retaining screws are provided. The inner ring part 2 consists of a total of three ring elements, namely a wave washer 5 , a spacer 6 and another bearing disc 7 , All three are about connecting screws 8th clamped together, using the spacer 6 a defined distance between the wave washer 5 and the bearing disc 7 is defined, which serves to set a defined bias within the below-described integrated bearings.

The inner ring part 2 and the outer ring part 3 are rotatably mounted relative to each other in the embodiment shown about only two bearings, that is, that overall results in a single-ended structure. On the one hand, a thrust bearing is provided 9 , here as a cylindrical roller bearing 10 is executed. It has a large number of individual, in a Kä 11 guided cylindrical rollers 12 on. These roll on the one hand on a corresponding track of the wave washer 5 , So from the inner ring part, on the other on a corresponding track of the outer ring part 3 , Seen radially inward, the thrust bearing closes 9 the spacer 6 at. The pressure angle is 90 °. Furthermore, an angular contact bearing is provided 13 , here as angular contact ball bearings 14 is executed. At the outer ring part 3 as well as on the bearing ring 7 are corresponding, round raceways for here as balls 15 designed rolling elements provided, over the arrangement of the raceways of the point contact of the balls 15 to the raceways as well as the pressure angle, which is not equal to 0 ° and, for example, 60 ° is defined. Again, the rolling elements 15 in a kä 16 guided. This bearing is completed via the sealing rings 17 ,

Both bearings therefore differ in pressure angle. Since a total of only two bearings or only two rows of rolling elements are provided, a total asymmetrical structure of the rotary table bearing is given, both rolling bearings result in an asymmetrical, no plane of symmetry bearing arrangement.

The thrust bearing 9 serves to absorb the axial loads. The radial loads as well as the preload of the system are provided by the angular contact bearing 13 , here's the angular contact ball bearing 14 accepted. This can be biased relatively strong, so that a considerably large temperature difference range, ie the area over which the rotary table warmed, can be covered. If there is an uneven heating of the inner ring part 2 and the outer ring part 3 , this does not result in 1: 1 a change in the bias voltage in the angular contact bearing 13 Rather, the resulting bias voltage change is very small, so that the rotary table bearing 1 is largely insensitive to common, resulting temperature differences within the bearing.

By the shoring shown also a high tilting stiffness and radial stiffness respectively radial load capacity is achieved, combined with a high axial load capacity via the thrust bearing 9 , whereby of course also the angular contact ball bearing 14 to a certain extent absorbs axial loads.

The angular contact ball bearing 14 has a similar diameter as the axial bearing 9 which on the one hand improves the radial properties and on the other hand improves the design as a compact, preassembled bearing unit.

2 shows the rotary table bearing 1 out 1 in rotated by 180 ° arrangement, that is, the rotary table bearing 1 can be installed in both the one and in the other positioning. Will in this orientation the rotary table bearing 1 installed so that the outer ring part 3 rotates while the inner ring part 2 is fixed, so lies in this case, the wave washer 5 of the inner ring part on the frame side on the corresponding base or the like. An unfolding of the wave washer 5 is basically excluded, which leads to an even better rigidity.

3 shows a rotary table bearing according to the invention 1 , wherein like reference numerals are used for the same components. Again, an inner ring part 2 provided as well as an outer ring part 3 , The inner ring part 2 again consists of a wave washer 5 as well as a bearing ring 7 but here about the connecting screws 8th bolted directly to each other, that is, that no spacer is provided here.

Provided again is a thrust bearing 9 , also here as a cylindrical roller bearing 10 is executed, comprising a Ka 11 as well as in this guided cylindrical rollers 12 ,

The also provided here Schrägkontaktlager 13 is as a tapered roller bearing 18 executed. At the bearing ring 7 and on the outer ring part 3 corresponding treads are formed, on which the rollers 19 roll off. Obvious is the tapered roller bearing 18 the diameter is still slightly larger than the angular contact ball bearings 14 from the 1 and 2 that is, the treads of the tapered roller bearing 18 and the thrust bearing 9 , axially overlap. The tapered roller bearing 18 is also here via a sealing ring 17 sealed.

4 shows, accordingly 2 , The 180 ° rotated arrangement of the rotary table bearing 1 out 3 , Again, there is a possibility that the wave washer 5 when the rotary table bearing 1 is installed so that the outer ring part 3 rotates, thus wearing the round table, supported on a frame-side base or the like, which is conducive to the rigidity.

Although in both embodiments described a pure thrust bearing is provided with a pressure angle of 90 °, a further angular contact bearing, but with a relation to the pressure angle of the other angular contact bearing larger pressure angle would be built in its place.

LIST OF REFERENCE NUMBERS

1

 Rotary table bearings

2

 Inner ring member

3

 Outer ring portion

4

 mounting holes

5

 wave washer

6

 distance screw

7

 bearing disk

8th

 connecting bolts

9

 thrust

10

 Cylindrical roller bearings

11

 Cage

12

 cylindrical rollers

13

 Angular contact bearing

14

 Angular contact ball bearings

15

 rolling elements

16

 Cage

17

 seal

18

 Tapered roller bearings

19

 roll

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102008017457 A1 [0003]

Claims (8)

Rotary table bearing, comprising an inner ring part and an outer ring part, which are mounted so as to be movable relative to one another via a plurality of bearings receiving axial and radial loads, characterized in that only two roller bearings differing in the pressure angle ( 9 . 13 ) are provided. Rotary table bearing according to claim 1, characterized in that the one rolling bearing a thrust bearing ( 9 ) and the other rolling bearing a Schrägkontaktlager ( 13 ). Rotary table bearing according to claim 2, characterized in that the thrust bearing ( 9 ) a cylindrical roller bearing ( 10 ). Rotary table bearing according to claim 2 or 3, characterized in that the angular contact bearing ( 13 ) an angular contact ball bearing ( 14 ), a tapered roller bearing ( 18 ) or a tapered roller bearing. Rotary table bearing according to one of the preceding claims, characterized in that the outer diameter of a rolling bearing, in particular of the angular contact bearing ( 13 ) approximately the inner diameter of another rolling bearing, in particular the thrust bearing ( 7 ) corresponds. Rotary table bearing according to one of claims 1 to 5, characterized in that seen axially a rolling bearing, in particular the angular contact bearing ( 13 ) the other rolling bearing, in particular the thrust bearing ( 7 ) partially covered. Rotary table bearing according to one of the preceding claims, characterized in that the inner ring part ( 2 ) of two axially superimposed, screwed together rings ( 5 . 7 ), wherein on one ring, the running surface for the rolling elements ( 12 ) of a rolling bearing, in particular of the axial bearing ( 7 ) and at the other ring the running surface for the rolling elements ( 15 . 19 ) of the other rolling bearing, in particular of the angular contact bearing ( 13 ) are provided. Rotary table bearing according to claim 7, characterized in that between the rings ( 5 . 7 ) a spacer ( 6 ) is arranged.

Images